forked from TrueCloudLab/neoneo-go
28908aa3cf
Signed-off-by: Elizaveta Chichindaeva <elizaveta@nspcc.ru>
633 lines
16 KiB
Go
633 lines
16 KiB
Go
package mpt
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import (
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"bytes"
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"encoding/binary"
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"errors"
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"fmt"
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"github.com/nspcc-dev/neo-go/pkg/core/storage"
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"github.com/nspcc-dev/neo-go/pkg/io"
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"github.com/nspcc-dev/neo-go/pkg/util"
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"github.com/nspcc-dev/neo-go/pkg/util/slice"
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)
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// TrieMode is the storage mode of a trie, it affects the DB scheme.
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type TrieMode byte
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// TrieMode is the storage mode of a trie.
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const (
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// ModeAll is used to store everything.
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ModeAll TrieMode = 0
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// ModeLatest is used to only store the latest root.
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ModeLatest TrieMode = 0x01
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// ModeGCFlag is a flag for GC.
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ModeGCFlag TrieMode = 0x02
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// ModeGC is used to store a set of roots with GC possible, it combines
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// GCFlag and Latest (because it needs RC, but it has GC enabled).
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ModeGC TrieMode = 0x03
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)
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// Trie is an MPT trie storing all key-value pairs.
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type Trie struct {
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Store *storage.MemCachedStore
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root Node
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mode TrieMode
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refcount map[util.Uint256]*cachedNode
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}
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type cachedNode struct {
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bytes []byte
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initial int32
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refcount int32
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}
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// ErrNotFound is returned when the requested trie item is missing.
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var ErrNotFound = errors.New("item not found")
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// RC returns true when reference counting is enabled.
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func (m TrieMode) RC() bool {
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return m&ModeLatest != 0
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}
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// GC returns true when garbage collection is enabled.
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func (m TrieMode) GC() bool {
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return m&ModeGCFlag != 0
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}
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// NewTrie returns a new MPT trie. It accepts a MemCachedStore to decouple storage errors from logic errors,
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// so that all storage errors are processed during `store.Persist()` at the caller.
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// Another benefit is that every `Put` can be considered an atomic operation.
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func NewTrie(root Node, mode TrieMode, store *storage.MemCachedStore) *Trie {
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if root == nil {
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root = EmptyNode{}
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}
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return &Trie{
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Store: store,
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root: root,
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mode: mode,
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refcount: make(map[util.Uint256]*cachedNode),
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}
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}
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// Get returns the value for the provided key in t.
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func (t *Trie) Get(key []byte) ([]byte, error) {
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if len(key) > MaxKeyLength {
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return nil, errors.New("key is too big")
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}
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path := toNibbles(key)
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r, leaf, _, err := t.getWithPath(t.root, path, true)
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if err != nil {
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return nil, err
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}
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t.root = r
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return slice.Copy(leaf.(*LeafNode).value), nil
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}
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// getWithPath returns the current node with all hash nodes along the path replaced
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// with their "unhashed" counterparts. It also returns node which the provided path in a
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// subtrie rooting in curr points to. In case of `strict` set to `false`, the
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// provided path can be incomplete, so it also returns the full path that points to
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// the node found at the specified incomplete path. In case of `strict` set to `true`,
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// the resulting path matches the provided one.
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func (t *Trie) getWithPath(curr Node, path []byte, strict bool) (Node, Node, []byte, error) {
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switch n := curr.(type) {
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case *LeafNode:
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if len(path) == 0 {
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return curr, n, []byte{}, nil
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}
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case *BranchNode:
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i, path := splitPath(path)
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if i == lastChild && !strict {
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return curr, n, []byte{}, nil
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}
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r, res, prefix, err := t.getWithPath(n.Children[i], path, strict)
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if err != nil {
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return nil, nil, nil, err
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}
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n.Children[i] = r
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return n, res, append([]byte{i}, prefix...), nil
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case EmptyNode:
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case *HashNode:
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if r, err := t.getFromStore(n.hash); err == nil {
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return t.getWithPath(r, path, strict)
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}
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case *ExtensionNode:
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if len(path) == 0 && !strict {
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return curr, n.next, n.key, nil
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}
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if bytes.HasPrefix(path, n.key) {
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r, res, prefix, err := t.getWithPath(n.next, path[len(n.key):], strict)
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if err != nil {
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return nil, nil, nil, err
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}
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n.next = r
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return curr, res, append(n.key, prefix...), err
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}
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if !strict && bytes.HasPrefix(n.key, path) {
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// path is shorter than prefix, stop seeking
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return curr, n.next, n.key, nil
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}
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default:
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panic("invalid MPT node type")
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}
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return curr, nil, nil, ErrNotFound
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}
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// Put puts key-value pair in t.
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func (t *Trie) Put(key, value []byte) error {
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if len(key) == 0 {
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return errors.New("key is empty")
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} else if len(key) > MaxKeyLength {
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return errors.New("key is too big")
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} else if len(value) > MaxValueLength {
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return errors.New("value is too big")
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} else if value == nil {
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// (t *Trie).Delete should be used to remove value
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return errors.New("value is nil")
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}
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path := toNibbles(key)
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n := NewLeafNode(value)
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r, err := t.putIntoNode(t.root, path, n)
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if err != nil {
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return err
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}
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t.root = r
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return nil
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}
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// putIntoLeaf puts the val to the trie if the current node is a Leaf.
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// It returns a Node if curr needs to be replaced and an error has occurred, if any.
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func (t *Trie) putIntoLeaf(curr *LeafNode, path []byte, val Node) (Node, error) {
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v := val.(*LeafNode)
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if len(path) == 0 {
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t.removeRef(curr.Hash(), curr.bytes)
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t.addRef(val.Hash(), val.Bytes())
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return v, nil
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}
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b := NewBranchNode()
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b.Children[path[0]] = t.newSubTrie(path[1:], v, true)
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b.Children[lastChild] = curr
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t.addRef(b.Hash(), b.bytes)
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return b, nil
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}
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// putIntoBranch puts the val to the trie if the current node is a Branch.
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// It returns the Node if curr needs to be replaced and an error has occurred, if any.
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func (t *Trie) putIntoBranch(curr *BranchNode, path []byte, val Node) (Node, error) {
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i, path := splitPath(path)
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t.removeRef(curr.Hash(), curr.bytes)
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r, err := t.putIntoNode(curr.Children[i], path, val)
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if err != nil {
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return nil, err
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}
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curr.Children[i] = r
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curr.invalidateCache()
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t.addRef(curr.Hash(), curr.bytes)
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return curr, nil
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}
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// putIntoExtension puts the val to the trie if the current node is an Extension.
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// It returns the Node if curr needs to be replaced and an error has occurred, if any.
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func (t *Trie) putIntoExtension(curr *ExtensionNode, path []byte, val Node) (Node, error) {
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t.removeRef(curr.Hash(), curr.bytes)
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if bytes.HasPrefix(path, curr.key) {
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r, err := t.putIntoNode(curr.next, path[len(curr.key):], val)
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if err != nil {
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return nil, err
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}
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curr.next = r
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curr.invalidateCache()
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t.addRef(curr.Hash(), curr.bytes)
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return curr, nil
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}
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pref := lcp(curr.key, path)
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lp := len(pref)
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keyTail := curr.key[lp:]
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pathTail := path[lp:]
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s1 := t.newSubTrie(keyTail[1:], curr.next, false)
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b := NewBranchNode()
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b.Children[keyTail[0]] = s1
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i, pathTail := splitPath(pathTail)
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s2 := t.newSubTrie(pathTail, val, true)
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b.Children[i] = s2
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t.addRef(b.Hash(), b.bytes)
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if lp > 0 {
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e := NewExtensionNode(slice.Copy(pref), b)
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t.addRef(e.Hash(), e.bytes)
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return e, nil
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}
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return b, nil
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}
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func (t *Trie) putIntoEmpty(path []byte, val Node) (Node, error) {
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return t.newSubTrie(path, val, true), nil
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}
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// putIntoHash puts the val to the trie if the current node is a HashNode.
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// It returns the Node if curr needs to be replaced and an error has occurred, if any.
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func (t *Trie) putIntoHash(curr *HashNode, path []byte, val Node) (Node, error) {
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result, err := t.getFromStore(curr.hash)
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if err != nil {
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return nil, err
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}
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return t.putIntoNode(result, path, val)
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}
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// newSubTrie creates a new trie containing the node at the provided path.
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func (t *Trie) newSubTrie(path []byte, val Node, newVal bool) Node {
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if newVal {
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t.addRef(val.Hash(), val.Bytes())
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}
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if len(path) == 0 {
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return val
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}
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e := NewExtensionNode(path, val)
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t.addRef(e.Hash(), e.bytes)
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return e
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}
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// putIntoNode puts the val with the provided path inside curr and returns an updated node.
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// Reference counters are updated for both curr and returned value.
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func (t *Trie) putIntoNode(curr Node, path []byte, val Node) (Node, error) {
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switch n := curr.(type) {
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case *LeafNode:
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return t.putIntoLeaf(n, path, val)
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case *BranchNode:
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return t.putIntoBranch(n, path, val)
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case *ExtensionNode:
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return t.putIntoExtension(n, path, val)
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case *HashNode:
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return t.putIntoHash(n, path, val)
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case EmptyNode:
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return t.putIntoEmpty(path, val)
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default:
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panic("invalid MPT node type")
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}
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}
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// Delete removes the key from the trie.
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// It returns no error on a missing key.
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func (t *Trie) Delete(key []byte) error {
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if len(key) > MaxKeyLength {
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return errors.New("key is too big")
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}
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path := toNibbles(key)
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r, err := t.deleteFromNode(t.root, path)
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if err != nil {
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return err
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}
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t.root = r
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return nil
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}
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func (t *Trie) deleteFromBranch(b *BranchNode, path []byte) (Node, error) {
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i, path := splitPath(path)
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h := b.Hash()
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bs := b.bytes
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r, err := t.deleteFromNode(b.Children[i], path)
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if err != nil {
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return nil, err
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}
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t.removeRef(h, bs)
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b.Children[i] = r
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b.invalidateCache()
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var count, index int
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for i := range b.Children {
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if !isEmpty(b.Children[i]) {
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index = i
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count++
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}
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}
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// count is >= 1 because branch node had at least 2 children before deletion.
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if count > 1 {
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t.addRef(b.Hash(), b.bytes)
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return b, nil
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}
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c := b.Children[index]
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if index == lastChild {
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return c, nil
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}
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if h, ok := c.(*HashNode); ok {
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c, err = t.getFromStore(h.Hash())
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if err != nil {
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return nil, err
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}
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}
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if e, ok := c.(*ExtensionNode); ok {
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t.removeRef(e.Hash(), e.bytes)
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e.key = append([]byte{byte(index)}, e.key...)
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e.invalidateCache()
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t.addRef(e.Hash(), e.bytes)
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return e, nil
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}
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e := NewExtensionNode([]byte{byte(index)}, c)
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t.addRef(e.Hash(), e.bytes)
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return e, nil
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}
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func (t *Trie) deleteFromExtension(n *ExtensionNode, path []byte) (Node, error) {
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if !bytes.HasPrefix(path, n.key) {
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return n, nil
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}
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h := n.Hash()
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bs := n.bytes
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r, err := t.deleteFromNode(n.next, path[len(n.key):])
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if err != nil {
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return nil, err
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}
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t.removeRef(h, bs)
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switch nxt := r.(type) {
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case *ExtensionNode:
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t.removeRef(nxt.Hash(), nxt.bytes)
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n.key = append(n.key, nxt.key...)
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n.next = nxt.next
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case EmptyNode:
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return nxt, nil
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case *HashNode:
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n.next = nxt
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default:
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n.next = r
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}
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n.invalidateCache()
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t.addRef(n.Hash(), n.bytes)
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return n, nil
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}
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// deleteFromNode removes the value with the provided path from curr and returns an updated node.
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// Reference counters are updated for both curr and returned value.
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func (t *Trie) deleteFromNode(curr Node, path []byte) (Node, error) {
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switch n := curr.(type) {
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case *LeafNode:
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if len(path) == 0 {
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t.removeRef(curr.Hash(), curr.Bytes())
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return EmptyNode{}, nil
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}
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return curr, nil
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case *BranchNode:
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return t.deleteFromBranch(n, path)
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case *ExtensionNode:
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return t.deleteFromExtension(n, path)
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case EmptyNode:
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return n, nil
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case *HashNode:
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newNode, err := t.getFromStore(n.Hash())
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if err != nil {
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return nil, err
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}
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return t.deleteFromNode(newNode, path)
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default:
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panic("invalid MPT node type")
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}
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}
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// StateRoot returns root hash of t.
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func (t *Trie) StateRoot() util.Uint256 {
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if isEmpty(t.root) {
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return util.Uint256{}
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}
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return t.root.Hash()
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}
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func makeStorageKey(mptKey util.Uint256) []byte {
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return append([]byte{byte(storage.DataMPT)}, mptKey[:]...)
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}
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// Flush puts every node (except Hash ones) in the trie to the storage.
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// Because we care about block-level changes only, there is no need to put every
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// new node to the storage. Normally, flush should be called with every StateRoot persist, i.e.
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// after every block.
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func (t *Trie) Flush(index uint32) {
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key := makeStorageKey(util.Uint256{})
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for h, node := range t.refcount {
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if node.refcount != 0 {
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copy(key[1:], h[:])
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if node.bytes == nil {
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panic("item not in trie")
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}
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if t.mode.RC() {
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node.initial = t.updateRefCount(h, key, index)
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if node.initial == 0 {
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delete(t.refcount, h)
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}
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} else if node.refcount > 0 {
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t.Store.Put(key, node.bytes)
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}
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node.refcount = 0
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} else {
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delete(t.refcount, h)
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}
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}
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}
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func IsActiveValue(v []byte) bool {
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return len(v) > 4 && v[len(v)-5] == 1
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}
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func getFromStore(key []byte, mode TrieMode, store *storage.MemCachedStore) ([]byte, error) {
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data, err := store.Get(key)
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if err == nil && mode.GC() && !IsActiveValue(data) {
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return nil, storage.ErrKeyNotFound
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}
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return data, err
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}
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// updateRefCount should be called only when refcounting is enabled.
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func (t *Trie) updateRefCount(h util.Uint256, key []byte, index uint32) int32 {
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if !t.mode.RC() {
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panic("`updateRefCount` is called, but GC is disabled")
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}
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var data []byte
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node := t.refcount[h]
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cnt := node.initial
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if cnt == 0 {
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// A newly created item which may be in store.
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var err error
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data, err = getFromStore(key, t.mode, t.Store)
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if err == nil {
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cnt = int32(binary.LittleEndian.Uint32(data[len(data)-4:]))
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}
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}
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if len(data) == 0 {
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data = append(node.bytes, 1, 0, 0, 0, 0)
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}
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cnt += node.refcount
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switch {
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case cnt < 0:
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// BUG: negative reference count
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panic(fmt.Sprintf("negative reference count: %s new %d, upd %d", h.StringBE(), cnt, t.refcount[h]))
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case cnt == 0:
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if !t.mode.GC() {
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t.Store.Delete(key)
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} else {
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data[len(data)-5] = 0
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binary.LittleEndian.PutUint32(data[len(data)-4:], index)
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t.Store.Put(key, data)
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}
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default:
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binary.LittleEndian.PutUint32(data[len(data)-4:], uint32(cnt))
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t.Store.Put(key, data)
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}
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return cnt
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}
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func (t *Trie) addRef(h util.Uint256, bs []byte) {
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node := t.refcount[h]
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if node == nil {
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t.refcount[h] = &cachedNode{
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refcount: 1,
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bytes: bs,
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}
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return
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}
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node.refcount++
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if node.bytes == nil {
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node.bytes = bs
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}
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}
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func (t *Trie) removeRef(h util.Uint256, bs []byte) {
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node := t.refcount[h]
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if node == nil {
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t.refcount[h] = &cachedNode{
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refcount: -1,
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bytes: bs,
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}
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return
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}
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node.refcount--
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if node.bytes == nil {
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node.bytes = bs
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}
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|
}
|
|
|
|
func (t *Trie) getFromStore(h util.Uint256) (Node, error) {
|
|
data, err := getFromStore(makeStorageKey(h), t.mode, t.Store)
|
|
if err != nil {
|
|
return nil, err
|
|
}
|
|
|
|
var n NodeObject
|
|
r := io.NewBinReaderFromBuf(data)
|
|
n.DecodeBinary(r)
|
|
if r.Err != nil {
|
|
return nil, r.Err
|
|
}
|
|
|
|
if t.mode.RC() {
|
|
data = data[:len(data)-5]
|
|
node := t.refcount[h]
|
|
if node != nil {
|
|
node.bytes = data
|
|
_ = r.ReadB()
|
|
node.initial = int32(r.ReadU32LE())
|
|
}
|
|
}
|
|
n.Node.(flushedNode).setCache(data, h)
|
|
return n.Node, nil
|
|
}
|
|
|
|
// Collapse compresses all nodes at depth n to the hash nodes.
|
|
// Note: this function does not perform any kind of storage flushing so
|
|
// `Flush()` should be called explicitly before invoking function.
|
|
func (t *Trie) Collapse(depth int) {
|
|
if depth < 0 {
|
|
panic("negative depth")
|
|
}
|
|
t.root = collapse(depth, t.root)
|
|
t.refcount = make(map[util.Uint256]*cachedNode)
|
|
}
|
|
|
|
func collapse(depth int, node Node) Node {
|
|
switch node.(type) {
|
|
case *HashNode, EmptyNode:
|
|
return node
|
|
}
|
|
if depth == 0 {
|
|
return NewHashNode(node.Hash())
|
|
}
|
|
|
|
switch n := node.(type) {
|
|
case *BranchNode:
|
|
for i := range n.Children {
|
|
n.Children[i] = collapse(depth-1, n.Children[i])
|
|
}
|
|
case *ExtensionNode:
|
|
n.next = collapse(depth-1, n.next)
|
|
case *LeafNode:
|
|
case *HashNode:
|
|
default:
|
|
panic("invalid MPT node type")
|
|
}
|
|
return node
|
|
}
|
|
|
|
// Find returns a list of storage key-value pairs whose key is prefixed by the specified
|
|
// prefix starting from the specified `prefix`+`from` path (not including the item at
|
|
// the specified `prefix`+`from` path if so). The `max` number of elements is returned at max.
|
|
func (t *Trie) Find(prefix, from []byte, max int) ([]storage.KeyValue, error) {
|
|
if len(prefix) > MaxKeyLength {
|
|
return nil, errors.New("invalid prefix length")
|
|
}
|
|
if len(from) > MaxKeyLength-len(prefix) {
|
|
return nil, errors.New("invalid from length")
|
|
}
|
|
prefixP := toNibbles(prefix)
|
|
fromP := []byte{}
|
|
if len(from) > 0 {
|
|
fromP = toNibbles(from)
|
|
}
|
|
_, start, path, err := t.getWithPath(t.root, prefixP, false)
|
|
if err != nil {
|
|
return nil, fmt.Errorf("failed to determine the start node: %w", err)
|
|
}
|
|
path = path[len(prefixP):]
|
|
|
|
if len(fromP) > 0 {
|
|
if len(path) <= len(fromP) && bytes.HasPrefix(fromP, path) {
|
|
fromP = fromP[len(path):]
|
|
} else if len(path) > len(fromP) && bytes.HasPrefix(path, fromP) {
|
|
fromP = []byte{}
|
|
} else {
|
|
cmp := bytes.Compare(path, fromP)
|
|
switch {
|
|
case cmp < 0:
|
|
return []storage.KeyValue{}, nil
|
|
case cmp > 0:
|
|
fromP = []byte{}
|
|
}
|
|
}
|
|
}
|
|
|
|
var (
|
|
res []storage.KeyValue
|
|
count int
|
|
)
|
|
b := NewBillet(t.root.Hash(), t.mode, 0, t.Store)
|
|
process := func(pathToNode []byte, node Node, _ []byte) bool {
|
|
if leaf, ok := node.(*LeafNode); ok {
|
|
if from == nil || !bytes.Equal(pathToNode, from) { // (*Billet).traverse includes `from` path into result if so. Need to filter out manually.
|
|
res = append(res, storage.KeyValue{
|
|
Key: append(slice.Copy(prefix), pathToNode...),
|
|
Value: slice.Copy(leaf.value),
|
|
})
|
|
count++
|
|
}
|
|
}
|
|
return count >= max
|
|
}
|
|
_, err = b.traverse(start, path, fromP, process, false, false)
|
|
if err != nil && !errors.Is(err, errStop) {
|
|
return nil, err
|
|
}
|
|
return res, nil
|
|
}
|